The intestine-specific homeobox (ISX) modulates β-carotene-dependent regulation of microsomal triglyceride transfer protein (MTP) in a tissue-specific manner.
Youn-Kyung Kim, Elena Giordano, Ulrich Hammerling, Dhruv Champaneri, Johannes von Lintig, M Mahmood Hussain, Loredana Quadro
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引用次数: 0
Abstract
Vitamin A is an essential nutrient crucial to ensuring proper mammalian embryonic development. β-Carotene is the most prevalent form of vitamin A in food that, when transferred in its intact form from mother to the developing tissues, can serve as an in situ source of retinoic acid, the active form of vitamin A. We have previously provided evidence that the maternal-fetal transfer of β-carotene across the placenta is mediated by lipoproteins and that β-carotene itself regulates placenta lipoprotein biogenesis by means of its derivatives β-apo-10'-carotenoids and retinoic acid. These metabolites exert antagonistic transcriptional activity on placental microsomal triglyceride transfer protein (MTP) and apolipoprotein B (APOB), two key players of lipoprotein biosynthesis. Here, we analyzed the time-dependency of this regulation over the course of 24 h upon a single maternal administration of β-carotene. We also tested the hypothesis that the transcriptional repressor intestine-specific homeobox (ISX) plays a role in the regulation of Mttp in placenta. We observed that ISX is expressed in placenta of mouse dams and is regulated by β-carotene availability. Furthermore, we demonstrated that the absence of Isx disrupts the β-carotene-mediated regulation of placental MTP. We also showed that this mechanism is organ-specific, as it was not observed in enterocytes of the intestine, a major place of Isx expression. Therefore, we identified ISX as a "master" regulator of a placental β-carotene-dependent transcriptional regulatory cascade that fine-tunes the flux of provitamin A carotenoid towards the developing fetus.
期刊介绍:
BBA Molecular and Cell Biology of Lipids publishes papers on original research dealing with novel aspects of molecular genetics related to the lipidome, the biosynthesis of lipids, the role of lipids in cells and whole organisms, the regulation of lipid metabolism and function, and lipidomics in all organisms. Manuscripts should significantly advance the understanding of the molecular mechanisms underlying biological processes in which lipids are involved. Papers detailing novel methodology must report significant biochemical, molecular, or functional insight in the area of lipids.